Neil Sheppard, Adjunct Associate Professor of Pathology and Laboratory Medicine in the Perelman School of Medicine, and David Mai, a Bioengineering graduate student in the School of Engineering and Applied Science, explained the findings of their recent study, which offered a potential strategy to improve T cell therapy in solid tumors, to the European biotech news website Labiotech.
Bella Mirro (left) poses with Penn President Liz Magill. (Image: Prestige Portraits)
For 150 years, Ivy Day has been an annual tradition at Penn, with each graduating class installing at least one new plaque and planting a sprig of ivy. On Saturday, May 13, the class of 2023 added to the 200-plus plaques throughout campus with a stone designed by Marah Sanchez, a Class of 2023 student in the School of Nursing, and remarks from Vice Provost for University Life Karu Kozuma.
“The Ivy Day Award Ceremony is a special celebration that gives us an opportunity to acknowledge the contributions and accomplishments of our graduating student leaders,” Kozuma says. “It is also an occasion to create connections. At the ceremony, we have the privilege of meeting family members and loved ones who have supported the students, while the students can connect with alumni who received the same recognition 25 years ago.”
Among the honorees were several Penn Bioengineering students.
Isabella Mirro was presented with the Penn Student Agencies Award by President Liz Magill. This award recognizes distinguished academic achievement and significant leadership in undergraduate activities by a member of the senior class. Mirro, a graduate of the undergraduate Class of 2023, was recently profiled in 34th Street Magazine.
President Liz Magill (right) with the winners of the President’s Innovation Prize. (Image: Prestige Portraits)
Additionally, Tifara Boyce, Gabriela Cano, Gabriella Daltoso, Sophie Ishiwari, and Caroline Magro were formally presented with the President’s Innovation Prize for their startup Sonura. Sonura was featured in Penn Today for their award-winning beanie for NICU infants.
Read the full list of Ivy Day awards in Penn Today.
Folding@home is led by Gregory Bowman, a Penn Integrates Knowledge Professor who has appointments in the Departments of Biochemistry and Biophysics in the Perelman School of Medicine and the Department of Bioengineering in the School of Engineering and Applied Science. (Image: Courtesy of Penn Medicine News)
Two heads are better than one. The ethos behind the scientific research project Folding@home is that same idea, multiplied: 50,000 computers are better than one.
Folding@home is a distributed computing project which is used to simulate protein folding, or how protein molecules assemble themselves into 3-D shapes. Research into protein folding allows scientists to better understand how these molecules function or malfunction inside the human body. Often, mutations in proteins influence the progression of many diseases like Alzheimer’s disease, cancer, and even COVID-19.
Penn is home to both the computer brains and human minds behind the Folding@home project which, with its network, forms the largest supercomputer in the world. All of that computing power continually works together to answer scientific questions such as what areas of specific protein implicated in Parkinson’s disease may be susceptible to medication or other treatment.
Using the network hub at Penn, Bowman and his team assign experiments to each individual computer which communicates with other computers and feeds info back to Philly. To date, the network is comprised of more than 50,000 computers spread across the world.
“What we do is like drawing a map,” said Bowman, explaining how the networked computers work together in a type of system that experts call Markov state models. “Each computer is like a driver visiting different places and reporting back info on those locations so we can get a sense of the landscape.”
Individuals can participate by signing up and then installing software to their standard personal desktop or laptop. Participants can direct the software to run in the background and limit it to a certain percentage of processing power or have the software run only when the computer is idle.
When the software is at work, it’s conducting unique experiments designed and assigned by Bowman and his team back at Penn. Users can play scientist and watch the results of simulations and monitor the data in real time, or they can simply let their computer do the work while they go about their lives.
